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    LM3045 TRANSISTOR Search Results

    LM3045 TRANSISTOR Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TTC5886A Toshiba Electronic Devices & Storage Corporation NPN Bipolar Transistor / hFE=400~1000 / VCE(sat)=0.22V / tf=120ns Visit Toshiba Electronic Devices & Storage Corporation
    TTA2097 Toshiba Electronic Devices & Storage Corporation PNP Bipolar Transistor / hFE=200~500 / VCE(sat)=-0.27V / tf=60ns Visit Toshiba Electronic Devices & Storage Corporation
    XPQR8308QB Toshiba Electronic Devices & Storage Corporation N-ch MOSFET, 80 V, 350 A, 0.00083 Ω@10V, L-TOGL Visit Toshiba Electronic Devices & Storage Corporation
    XPQ1R00AQB Toshiba Electronic Devices & Storage Corporation N-ch MOSFET, 100 V, 300 A, 0.00103 Ω@10V, L-TOGL Visit Toshiba Electronic Devices & Storage Corporation
    TK190U65Z Toshiba Electronic Devices & Storage Corporation MOSFET, N-ch, 650 V, 15 A, 0.19 Ohm@10V, TOLL Visit Toshiba Electronic Devices & Storage Corporation

    LM3045 TRANSISTOR Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    LM3086

    Abstract: LM3086 transistor Datasheet LM3086 transistor LM3046 LM3086N Monolithic Transistor Pair J14A LM3045 LM3045J LM3046M
    Text: LM3045/LM3046/LM3086 Transistor Arrays General Description Features The LM3045, LM3046 and LM3086 each consist of five general purpose silicon NPN transistors on a common monolithic substrate. Two of the transistors are internally connected to form a differentially-connected pair. The transistors


    Original     		PDF LM3045/LM3046/LM3086 LM3045, LM3046 LM3086 LM3045 14-lead LM3046 LM3086 transistor Datasheet LM3086 transistor LM3086N Monolithic Transistor Pair J14A LM3045J LM3046M

    LM3046N

    Abstract: LM3086N NPN Monolithic Transistor Pair Datasheet LM3086 transistor Monolithic Transistor Pair surface mount transistor A49 LM3045J 7950 LM3086 NPN Two monolithic transistors
    Text: LM3045 LM3046 LM3086 Transistor Arrays General Description Features The LM3045 LM3046 and LM3086 each consist of five general purpose silicon NPN transistors on a common monolithic substrate Two of the transistors are internally connected to form a differentially-connected pair The transistors are well suited to a wide variety of applications in low


    Original     		PDF LM3045 LM3046 LM3086 14-lead LM308m LM3046N LM3086N NPN Monolithic Transistor Pair Datasheet LM3086 transistor Monolithic Transistor Pair surface mount transistor A49 LM3045J 7950 NPN Two monolithic transistors

    LM3045

    Abstract: LMJ7045 MNLM3045-X
    Text: MICROCIRCUIT DATA SHEET Original Creation Date: 08/01/95 Last Update Date: 11/12/98 Last Major Revision Date: 08/01/95 MNLM3045-X REV 0BL TRANSISTOR ARRAY Industry Part Number NS Part Numbers LM3045 LM3045J/883 Prime Die LMJ7045 Processing Subgrp Description


    Original     		PDF MNLM3045-X LM3045 LM3045J/883 LMJ7045 MIL-STD-883, M0001695 LM3045 LMJ7045

    JL3045BCA

    Abstract: JL3045SCA LM3045 MV13
    Text: MICROCIRCUIT DATA SHEET Original Creation Date: 08/01/95 Last Update Date: 09/26/96 Last Major Revision Date: 08/01/95 MJLM3045-X REV 0BL THREE ISOLATED NPN TRANSISTORS AND ONE NPN DIFFERENTIALLY CONNECTED PAIR, GENERAL PURPOSE Industry Part Number NS Part Numbers


    Original     		PDF MJLM3045-X LM3045 JL3045BCA JL3045SCA MIL-STD-883, JL3045BCA JL3045SCA LM3045 MV13

    rosemount 118

    Abstract: thermometer lm324 lm324 and rtd lm324 rtd application MF-1000-A sensor rosemount 118 rosemount 118 mf electronic oven control lm392 rosemount temperature 118 LM3045 transistor
    Text: National Semiconductor Application Note 286 September 1981 The LM339 quad comparator and the LM324 op amp are among the most widely used linear ICs today. The combination of low cost, single or dual supply operation and ease of use has contributed to the wide range of applications for


    Original     		PDF LM339 LM324 LM392, 324-type 339-type AN-286 rosemount 118 thermometer lm324 lm324 and rtd lm324 rtd application MF-1000-A sensor rosemount 118 rosemount 118 mf electronic oven control lm392 rosemount temperature 118 LM3045 transistor

    ic 7493

    Abstract: rosemount 118 pin function of ic 7493 pin diagram of ic 7493 rosemount 118 mf LM103-3 of 7493 IC 7493 IC applications ic 7493 DIGITAL IC 7493
    Text: National Semiconductor Application Note 286 September 1981 The LM339 quad comparator and the LM324 op amp are among the most widely used linear ICs today The combination of low cost single or dual supply operation and ease of use has contributed to the wide range of applications for


    Original     		PDF LM339 LM324 LM392 324-type 339-type ic 7493 rosemount 118 pin function of ic 7493 pin diagram of ic 7493 rosemount 118 mf LM103-3 of 7493 IC 7493 IC applications ic 7493 DIGITAL IC 7493

    alternative of LM386

    Abstract: LM386 FIXED LOW GAIN AUDIO POWER AMPLIFIER 2N3819 NATIONAL SEMICONDUCTOR 2N3810 NATIONAL SEMICONDUCTOR 2n3819 equivalent ic LM3900 VCO sine wave Oscillator jfet circuit pin diagram for IC 7483 IC LM386 12V supply LM386 circuit with capacitors
    Text: National Semiconductor Application Note 263 Rereleased May 26, 2009 October 21, 1999 Producing and manipulating the sine wave function is a common problem encountered by circuit designers. Sine wave circuits pose a significant design challenge because they represent a constantly controlled linear oscillator. Sine wave


    Original     		PDF AN-263 alternative of LM386 LM386 FIXED LOW GAIN AUDIO POWER AMPLIFIER 2N3819 NATIONAL SEMICONDUCTOR 2N3810 NATIONAL SEMICONDUCTOR 2n3819 equivalent ic LM3900 VCO sine wave Oscillator jfet circuit pin diagram for IC 7483 IC LM386 12V supply LM386 circuit with capacitors

    ic LM386 wein bridge

    Abstract: sine wave crystal controlled oscillator 2N3819 fet lm311 lm386 controlling ic lm311 2n3819 equivalent ic Sine Wave Generation Techniques alternative of LM386 100 khz crystal mm74193
    Text: National Semiconductor Application Note 263 October 1999 Producing and manipulating the sine wave function is a common problem encountered by circuit designers. Sine wave circuits pose a significant design challenge because they represent a constantly controlled linear oscillator. Sine


    Original     		PDF

    7483 IC

    Abstract: ic 7483 pin configuration of IC 7483 ic 7483 pin diagram for IC 7483 applications of IC 7483 7483 IC APPLICATIONS 7483 comparator Datasheet of IC 7483 data sheet ic 7483
    Text: National Semiconductor Application Note 263 March 1981 Producing and manipulating the sine wave function is a common problem encountered by circuit designers Sine wave circuits pose a significant design challenge because they represent a constantly controlled linear oscillator Sine


    Original     		PDF

    and logic gate

    Abstract: LT1720 pulse stretcher circuit diagram CA3039 MRF501 300mv 1N5711 LM3045 LT1227 LT1394
    Text: DESIGN FEATURES A 4.5ns, 4mA, Single-Supply, Dual Comparator Optimized for by Joseph G. Petrofsky 3V/5V Operation Introduction NONLINEAR STAGE The LT1720 is an UltraFast 4.5ns , low power (4mA/comparator), singlesupply, dual comparator designed to operate on a single 3V or 5V supply.


    Original     		PDF LT1720 100mV. 100mV and logic gate pulse stretcher circuit diagram CA3039 MRF501 300mv 1N5711 LM3045 LT1227 LT1394

    AN7530

    Abstract: LM393 Spice COILTRONICS CTX01 ccfl transformer CTX01 12926 LM393 spice model IN5711 npn-pnp dual laptop lcd ccfl inverter Royer converter Royer oscillator circuit diagram
    Text: Application Note 75 March 1999 Circuitry for Signal Conditioning and Power Conversion Designs From a Once Lazy Sabbatical Jim Williams Introduction Linear Technology has a sabbatical program. Every five years employees are granted sabbatical leave, which may


    Original     		PDF EL2004 400pA 50MHz 50MHz AN75-31 AN75-32 an75f AN7530 LM393 Spice COILTRONICS CTX01 ccfl transformer CTX01 12926 LM393 spice model IN5711 npn-pnp dual laptop lcd ccfl inverter Royer converter Royer oscillator circuit diagram

    Motorola transistors MRF 13S

    Abstract: 10h350 nanosecond pulse stretcher PN Junction Diode varactor 1720i LT1112 LT1638 LT1720 LT1720CS8 LT1720IS8
    Text: LT1720 Dual, 4.5ns, Single Supply 3V/5V Comparator with Rail-to-Rail Outputs U DESCRIPTION FEATURES • ■ ■ ■ ■ ■ ■ ■ UltraFast: 4.5ns at 20mV Overdrive 7ns at 5mV Overdrive Low Power: 4mA per Comparator Optimized for 3V and 5V Operation Pinout Optimized for High Speed Ease of Use


    Original     		PDF LT1720 100mV 100pF 1N5711 LT1016 LT1116 LT1394 LT1671 Motorola transistors MRF 13S 10h350 nanosecond pulse stretcher PN Junction Diode varactor 1720i LT1112 LT1638 LT1720 LT1720CS8 LT1720IS8

    transistor MRF 254

    Abstract: LT1720 LT1720CDD LT1720CMS8 LT1720IDD LT1721 LAAV simple proportional pulse stretcher
    Text: LT1720/LT1721 Dual/Quad, 4.5ns, Single Supply 3V/5V Comparators with Rail-to-Rail Outputs DESCRIPTION FEATURES n n n n n n n n n UltraFast: 4.5ns at 20mV Overdrive 7ns at 5mV Overdrive Low Power: 4mA per Comparator Optimized for 3V and 5V Operation Pinout Optimized for High Speed Ease of Use


    Original     		PDF LT1720/LT1721 100mV LT1720) LT1116 LT1016 LT1394 LT1671 LT1715 150MHz LT1720 transistor MRF 254 LT1720CDD LT1720CMS8 LT1720IDD LT1721 LAAV simple proportional pulse stretcher

    1720i

    Abstract: LT1720 LT1720CMS8 LT1720CS8 LT1720IS8 LT1721 data 2n3866 nanosecond pulse stretcher
    Text: LT1720/LT1721 Dual/Quad, 4.5ns, Single Supply 3V/5V Comparators with Rail-to-Rail Outputs U FEATURES • ■ ■ ■ ■ ■ ■ ■ DESCRIPTIO UltraFast: 4.5ns at 20mV Overdrive 7ns at 5mV Overdrive Low Power: 4mA per Comparator Optimized for 3V and 5V Operation


    Original     		PDF LT1720/LT1721 100mV LT1016 LT1116 LT1394 LT1671 LT1719 17201f 1720i LT1720 LT1720CMS8 LT1720CS8 LT1720IS8 LT1721 data 2n3866 nanosecond pulse stretcher

    Untitled

    Abstract: No abstract text available
    Text: LT1720/LT1721 Dual/Quad, 4.5ns, Single Supply 3V/5V Comparators with Rail-to-Rail Outputs DESCRIPTION FEATURES n n n n n n n n n UltraFast: 4.5ns at 20mV Overdrive 7ns at 5mV Overdrive Low Power: 4mA per Comparator Optimized for 3V and 5V Operation Pinout Optimized for High Speed Ease of Use


    Original     		PDF LT1720/LT1721 100mV LT1720) LT1116 LT1016 LT1394 LT1671 LT1715 150MHz LT1720

    1720i

    Abstract: LT1720 LT1720CDD LT1720CS8 LT1720IDD LT1720IS8 LT1721 2N3866 equivalent data 2n3866 nanosecond pulse stretcher
    Text: LT1720/LT1721 Dual/Quad, 4.5ns, Single Supply 3V/5V Comparators with Rail-to-Rail Outputs U FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ DESCRIPTIO UltraFast: 4.5ns at 20mV Overdrive 7ns at 5mV Overdrive Low Power: 4mA per Comparator Tiny 3mm x 3mm x 0.8mm DFN Package LT1720


    Original     		PDF LT1720/LT1721 LT1720) 100mV LT1116 LT1016 LT1394 LT1671 LT1715 150MHz LT1720 1720i LT1720CDD LT1720CS8 LT1720IDD LT1720IS8 LT1721 2N3866 equivalent data 2n3866 nanosecond pulse stretcher

    pulse stretcher

    Abstract: nanosecond pulse stretcher sn1720
    Text: LT1720/LT1721 Dual/Quad, 4.5ns, Single Supply 3V/5V Comparators with Rail-to-Rail Outputs U FEATURES • ■ ■ ■ ■ ■ ■ ■ DESCRIPTIO UltraFast: 4.5ns at 20mV Overdrive 7ns at 5mV Overdrive Low Power: 4mA per Comparator Optimized for 3V and 5V Operation


    Original     		PDF LT1720/LT1721 100mV LT1720 100ns 100pF pulse stretcher nanosecond pulse stretcher sn1720

    simple proportional pulse stretcher

    Abstract: LT1720CDD nanosecond pulse stretcher LT1720CS8#TRPBF 1720i LT1720 LT1720CMS8 LT1720IDD LT1721 Phase Discriminators
    Text: LT1720/LT1721 Dual/Quad, 4.5ns, Single Supply 3V/5V Comparators with Rail-to-Rail Outputs DESCRIPTION FEATURES n n n n n n n n n UltraFast: 4.5ns at 20mV Overdrive 7ns at 5mV Overdrive Low Power: 4mA per Comparator Optimized for 3V and 5V Operation Pinout Optimized for High Speed Ease of Use


    Original     		PDF LT1720/LT1721 100mV LT1720) LT1116 LT1016 LT1394 LT1671 LT1715 150MHz LT1720 simple proportional pulse stretcher LT1720CDD nanosecond pulse stretcher LT1720CS8#TRPBF 1720i LT1720CMS8 LT1720IDD LT1721 Phase Discriminators

    simple proportional pulse stretcher

    Abstract: No abstract text available
    Text: LT1720/LT1721 Dual/Quad, 4.5ns, Single Supply 3V/5V Comparators with Rail-to-Rail Outputs U FEATURES • ■ ■ ■ ■ ■ ■ ■ ■ DESCRIPTIO UltraFast: 4.5ns at 20mV Overdrive 7ns at 5mV Overdrive Low Power: 4mA per Comparator Tiny 3mm x 3mm x 0.8mm DFN Package LT1720


    Original     		PDF LT1720/LT1721 LT1720) 100mV LT1720 100ns 100pF simple proportional pulse stretcher

    lm3046

    Abstract: lm3086 LM3086 transistor LM3045/LM3046/LM3086
    Text: LM3045/LM3046/LM3086 & N ational Semiconductor LM3045/LM3046/LM3086 Transistor Arrays General Description Features The LM3045, LM3046 and LM3086 each consist of five general purpose silicon NPN transistors on a common monolithic substrate. Two of the transistors are internally


    OCR Scan     		PDF LM3045/LM3046/LM3086 LM3045/LM3046/LM3086 LM3045, LM3046 LM3086 LM3045 14-lead LM3086 transistor

    lt 715

    Abstract: Monolithic Transistor Pair NPN Monolithic Transistor Pair J14A LM3045 LM3045J LM3046 LM3046M LM3046N LM3086
    Text: LM3045/LM3046/LM3086 National Semiconductor LM3045/LM3046/LM3086 Transistor Arrays General Description Features The LM3045, LM3046 and LM3086 each consist of five general purpose silicon NPN transistors on a common monolithic substrate. Two of the transistors are internally


    OCR Scan     		PDF LM3045/LM3046/LM3086 LM3045, LM3046 LM3086 LM3045 14-lead bSD1124 TL/H/7950-7 bS01124 lt 715 Monolithic Transistor Pair NPN Monolithic Transistor Pair J14A LM3045J LM3046M LM3046N

    lm3086

    Abstract: No abstract text available
    Text: LM3045/LM3046/LM3086 & National Semiconductor LM3045/LM3046/LM3086 Transistor Arrays General Description Features The LM3045, LM3046 and LM3086 each consist of five general purpose silicon NPN transistors on a common monolithic substrate. Two of the transistors are internally


    OCR Scan     		PDF LM3045/LM3046/LM3086 LM3045/LM3046/LM3086 LM3045, LM3046 LM3086 LM3045 14-lead TL/H/7950-6 TL/H/7950-7

    Untitled

    Abstract: No abstract text available
    Text: ß Semiconductor LM3045/LM3046/LM3086 Transistor Arrays General Description Features The LM3045, LM3046 and LM3086 each consist of five gen­ eral purpose silicon NPN transistors on a common mono­ lithic substrate. Two of the transistors are internally con­


    OCR Scan     		PDF LM3045/LM3046/LM3086 LM3045, LM3046 LM3086 LM3045 14-lead

    BE5L

    Abstract: LM3046J A0231-1 3045J LM304
    Text: s G S-THOnSON 07E D | 7 ^ 5 3 7 67C 168 74 0011101 4 | j T ^ T ^ " ' ' ~*~ r U L J J - - LM3Q45 LINEAR INTEGRATED CIRCUITS FIVE TRANSISTOR A R R A Y S be used as directe transistors in conventional circuits however, in addition, they provide the very significant inherent integrated circuit advan­


    OCR Scan     		PDF LM3Q45 14-lead LM3046 lMM45 BE5L LM3046J A0231-1 3045J LM304